On December 3, 2025 ImpriMed, a precision oncology CRO specializing in ex vivo drug sensitivity testing for hematologic malignancies, reported that it has been selected to present two significant research studies at the 67th American Society of Hematology (ASH) (Free ASH Whitepaper) Annual Meeting and Exposition in Orlando, Florida, taking place December 6-10.

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"Being featured at ASH (Free ASH Whitepaper) is an important validation of our xCellSense platform for both pharma partners and clinicians," said Sungwon Lim, Chief Executive Officer of ImpriMed. "Our data demonstrates that ex vivo functional testing, combined with genomic profiling, can effectively predict which acute myeloid leukemia (AML) patients will respond to specific therapies. This powerful combination equips drug developers and physicians with the critical evidence needed to select the most effective treatments, design innovative clinical trials, and ultimately improve patient outcomes."

ImpriMed will present data from a prospective study integrating NGS-based genomic profiling with ex vivo drug sensitivity testing across a panel of 21 drugs in AML patients treated with standard-of-care regimens. The data demonstrate that ex vivo drug-sensitivity testing successfully stratified survival risk in AML patients and identified clinically meaningful genotype-drug associations. These results validate the platform’s utility for drug development applications, including lead candidate selection, patient enrichment strategies, and the development of companion diagnostics.

Additionally, the company will share findings on a quantitative ex vivo drug synergy analysis methodology using primary samples from AML patients. This innovative system enables pharmaceutical companies to identify synergistic drug combinations and accurately identify the patient subgroups most likely to benefit from combination therapy.

Oral Presentation Details:

Session: 803. Emerging Tools, Techniques, and Artificial Intelligence in Hematology
Date/Time: December 8, 2025, 3:15 PM – 3:30 PM
Publication Number: 939
Title: "Ex vivo drug sensitivity testing in Korean AML patients: Integration of functional and genomic profiles for predicting clinical response and survival"
Poster Presentation Details:

Session: 803. Emerging Tools, Techniques, and Artificial Intelligence in Hematology: Poster III
Date/Time: December 8, 2025, 6:00 PM – 8:00 PM
Publication Number: 6137
Title: "Quantitative ex vivo synergy profiling uncovers heterogeneous combination responses in AML primary samples"

(Press release, ImpriMed, DEC 3, 2025, View Source [SID1234661115])

On December 3, 2025 Hoth Therapeutics, Inc. (NASDAQ: HOTH), a patient-focused clinical-stage biopharmaceutical company, reported a comprehensive update on its therapeutic pipeline. The Company detailed meaningful progress across HT-001, HT-KIT, HT-ALZ, and its newly launched GDNF-based metabolic program, while continuing to strengthen its global intellectual-property portfolio and expand strategic research partnerships.

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Pipeline Highlights

HT-001 (Topical Epidermal Growth Factor Inhibitor) – Phase 2 CLEER-001 Trial Advancing

Hoth continues to advance HT-001 in its Phase 2 CLEER-001 clinical trial targeting EGFR-inhibitor–associated rash, a significant unmet need in oncology supportive care.

Recent progress includes:

Strong safety profile to date with no dose-limiting toxicities observed.
Consistent improvement trends in rash severity and pruritus
Increased clinical-site engagement and favorable investigator feedback.
A further clinical update is anticipated in the coming months as enrollment continues to progress.

HT-KIT (Orphan Drug Designation for Mast Cell Diseases) – IND Preparation Underway

HT-KIT, Hoth’s targeted KIT-inhibitor program for mastocytosis and related mast-cell–driven diseases, continues to progress through IND-enabling activities.

Key accomplishments:

FDA Orphan Drug Designation already granted.
Compelling preclinical efficacy showing potent KIT inhibition and suppressed mast-cell activation.
IND-enabling toxicology studies moving toward completion.
Ongoing manufacturing scale-up and analytical characterization
Hoth expects to finalize its’ IND submission in 2026, followed by first-in-human studies.

HT-ALZ (Therapeutic for Alzheimer’s Disease) – Advancing Through GLP and PK Development.

HT-ALZ continues to deliver supportive data across absorption, distribution, and neuroinflammatory pathways.

Recent highlights:

GLP studies underway with positive PK, biodistribution, and CNS-penetration modeling
Regulatory-facing package expected to mature in 2026.
GDNF-Based Weight-Loss & Metabolic Program (VA Collaboration) – Newly Accelerated Initiative

Hoth’s newest program leverages GDNF (Glial-Derived Neurotrophic Factor) to target obesity, hepatic steatosis, and metabolic dysfunction, representing one of the largest and fastest-growing therapeutic markets globally.

Recent achievements:

Study preparations initiated with the Atlanta VA Medical Center
Mouse procurement completed; high-fat-diet regimen launches per approved VA protocols.
Aim 1 of the research program now underway, with early data expected in 2026.
Program supported by strong academic collaboration and growing IP protection.
Expanding Intellectual Property & Strategic Collaborations

Hoth continues to broaden its IP position through new filings and expanded protection around:

HT-001 dermatology and oncology-supportive-care mechanisms
HT-KIT mast-cell-disease formulations, methods, and manufacturing
HT-ALZ CNS-focused data and delivery systems
GDNF weight-loss and hepatic-function applications
The Company maintains collaborations with leading institutions, including the Atlanta VA Medical Center, academic neuroscience groups, and AI-assisted discovery platforms.

Upcoming Milestones

CLEER-001 Phase 2 HT-001 clinical data update
Completion of toxicology and IND filing for HT-KIT
GLP, BBB, and PK updates for HT-ALZ
VA metabolic program early findings
Management Commentary

Robb Knie, Chief Executive Officer of Hoth Therapeutics, commented:

"Our therapeutic pipeline has never been more focused or better positioned. With HT-001 advancing in the clinic, HT-KIT nearing IND submission, HT-ALZ progressing through GLP development, and our new GDNF program targeting one of the largest markets in medicine."

(Press release, Hoth Therapeutics, DEC 3, 2025, View Source [SID1234661114])

On December 3, 2025 ImmVira Group ("ImmVira" or the "Company") reported a poster presentation at the 26th Annual Meeting of the Society of Urologic Oncology (SUO 2025). The presentation featured the latest interim clinical data (as of September 19, 2025) for its lead HSV-1 oncolytic virus product. MVR-T3011, in high-risk BCG-unresponsive non-muscle invasive bladder cancer (NMIBC) patients.

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The patients were enrolled and treated with intravesical MVR-T3011 at two dose levels: 2×109 PFU and 1×1010 PFU in this study. There were a total of 26 patients with papillary (16 patients at the dosage level of 2×109 PFU, 10 patients at the dosage level of 1×1010 PFU), and a total of 12 patients with carcinoma in situ (CIS) (7 patients at the dosage level of 2×109 PFU, 5 patients at the dosage level of 1×1010 PFU) enrolled in this trial. Data from the patients demonstrated a promising efficacy profile:

Among 16 evaluable patients with BCG-unresponsive papillary who received MVR-T3011 at a dose of 2×109 PFU, the 3-month, 6-month, 9-month and 12-month recurrence-free survival (RFS) rates were 87.1%, 80.4%, 80.4% and 71.4%, respectively. Among 6 evaluable patients who received MVR-T3011 at a dose of 1×1010 PFU, 100% of patients remained recurrence free at Month 3 and Month 6.
As of the same date, among 7 evaluable patients with BCG-unresponsive CIS (with or without Ta/T1) who received MVR-T3011 at doses of 2×109 PFU, the CR at any time, 3-month and 6-month CRR was 71.4%, and among 5 evaluable patients with BCG-unresponsive CIS (with or without Ta/T1) who received MVR-T3011 at doses of 1×1010 PFU, the CR at any time, 3-month and 6-month CRR was 100%.
Consistent with previous clinical findings, MVR-T3011 continued to demonstrate a favorable safety and tolerability profile in the latest study. Most treatment-emergent adverse events (TEAEs) were at Grades 1 or 2. Only five Grade 3 TEAEs were reported, two of which were treatment-related adverse events (TRAEs) and were consistent with reactions commonly associated with catheterization procedures. No Grade 3 or above TEAEs and no dose-limiting toxicities (DLT) occurred.

According to Frost & Sullivan, bladder cancer is one of the top 10 most common solid tumors globally by incidence and often requires prolonged treatment and surveillance spanning 5-10 years. NMIBC is a main type of bladder cancer, representing approximately 75% of all newly diagnosed bladder cancer cases. The current standard of care for high-risk NMIBC is Bacillus Calmette-Guerin (BCG). However, the availability of BCG is significantly limited by global supply shortages. In the U.S., BCG supply meets less than 30% of the total demand. These significant unmet medical needs highlight a clear opportunity for novel immunotherapies such as oncolytic viruses, which hold considerable potential as a new mechanism of action in this underserved market.

"We are highly encouraged by the interim efficacy data from the study, especially the high CR and RFS rate for both BCG-unresponsive CIS and papillary patients at 1×1010 PFU," said Dr. Grace Zhou, Chairwoman and CEO of ImmVira. "We have initiated a phase II trial for BCG-unresponsive high-risk NMIBC in the U.S. in June 2025 and are progressing a global multi-regional clinical trial (MRCT) inclusive of China. We believe MVR-T3011 could emerge as the new generation of therapy for patients with high-risk, BCG-unresponsive NMIBC."

About MVR-T3011

MVR-T3011, represents a breakthrough in HSV-1-based oncolytic immunotherapy. Its proprietary "3-in-1" design unites a replication-competent, tumor-lytic HSV-1 backbone with anti-PD-(L)1 antibody and IL-12, enabling it simultaneously to lyse tumor cells and stimulate innate and adaptive immunity. MVR-T3011 has demonstrated its adaptability and feasibility across multiple routes of administration including intratumoral, intracavitary and intravenous administrations. MVR-T3011 is the world’s first HSV-1-based oncolytic immunotherapy that has completed a phase I trial via systemic intravenous dosing under the FDA regulatory regime.

(Press release, Immvira, DEC 3, 2025, View Source [SID1234661113])

On December 3, 2025 TransThera Sciences Nanjing, Inc. (the "TransThera") reported that Tinengotinib tablets have been included in the List of Products for Priority Review by the Center for Drug Evaluation ("CDE") of the National Medical Products Administration ("NMPA") of the PRC, with the proposed indication for the treatment of adults with unresectable advanced or metastatic cholangiocarcinoma (CCA) who have received at least one prior systemic treatment and FGFR inhibitor treatment. Previously, Tinengotinib has been granted Breakthrough Therapy Designation by the NMPA for the treatment of CCA.

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Disclaimer: This article serves as a press release by TransThera to disclose the company’s latest developments. It is not intended as a product promotion advertisement and does not constitute the company’s investment advice.

About Tinengotinib

Tinengotinib is an internally discovered, registrational clinical stage, multi-kinase inhibitor that exerts antitumor effects by targeting FGFRs/VEGFRs, Aurora kinases and Janus kinases (JAK). Ongoing clinical trials in the US and China have revealed the potential of Tinengotinib to be efficacious in various solid tumors. It was granted the Orphan Drug Designation (ODD) and Fast Track Designation (FTD) by the FDA for the treatment of CCA, the Breakthrough Therapy Designation (BTD) by the NMPA in China, the Orphan Drug Designation (ODD) for the treatment of biliary tract cancer by the EMA.

(Press release, TransThera Biosciences, DEC 3, 2025, View Source [SID1234661112])

On December 3, 2025 Lantern Pharma Inc. (NASDAQ: LTRN), a clinical-stage biotechnology company using artificial intelligence and genomics to transform oncology drug development, reported additional details and clinical insights from its completed Phase 1a dose-escalation study of LP-184 as well as highlights from its recent webinar. The clinical trial demonstrated encouraging durable disease control in 63 heavily pre-treated patients with advanced solid tumors, many of which had DNA damage repair (DDR) pathway deficiencies. The clinical trial met all primary endpoints for safety, tolerability, and established a clear recommended phase 2 dose (RP2D).

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Building on these encouraging Phase 1a results, Lantern is advancing an ambitious precision oncology development strategy featuring multiple biomarker‑guided Phase 1b/2 clinical trials in triple‑negative breast cancer (TNBC), glioblastoma multiforme (GBM), non‑small cell lung cancer (NSCLC), and advanced urothelial carcinoma (bladder cancer). The company and independent industry analysts estimate that the aggregate annual market opportunity for LP‑184 across these and additional targeted indications could exceed $10 billion.

KEY HIGHLIGHTS:

Phase 1a Trial Successfully Completed with Encouraging Efficacy Signals: 63 heavily pre-treated patients (median 3+ prior therapies) with advanced solid tumors enrolled; trial achieved 54% disease control rate in patients at or above therapeutic dose levels, demonstrating promising activity in DNA damage repair-deficient cancers
Exceptional Durability in Difficult-to-Treat Cancers: Patients with stage 4 squamous lung cancer (BRCA1 mutation), thymic carcinoma (CHEK2 mutation), and gastrointestinal stromal tumor (ATM mutation) remain on treatment with 12+ to 23+ months of ongoing clinical benefit and meaningful tumor reductions after failing multiple prior therapies.
Addresses Major Market Opportunity in Precision Oncology: LP-184 targets the estimated 20-25% of solid tumor patients with DDR deficiencies—representing more than 400,000 cases annually and a market potential exceeding $10 billion in annual drug sales.
AI-Driven Biomarker Strategy Strengthened: Lantern’s RADR platform identified PTGR1 as a key predictive biomarker; >87% of Phase 1a patients (recurrent, advanced solid tumors) exceeded the bioactivation threshold, with a diagnostic-ready molecular assay enabling patient selection and/or stratification.
Strong Regulatory Support Accelerates Development: Five FDA designations (3 Orphan Drug, 2 Fast Track) for LP-184 across TNBC, GBM, pancreatic cancer, and rare pediatric tumors provide development advantages and potential expedited pathways to approval.
Multi-Indication Phase 1b/2 Program Are Advancing: Biomarker-guided trials are being planned and advancing in markets with high patient need: triple-negative breast cancer (monotherapy + PARP inhibitor combination); drug and IO resistant, PDL-1 low, non-small cell lung cancer (NSCLC); recurrent glioblastoma (GBM) ( with +spironolactone); and advanced recurrent DDR deficient bladder cancer.
PHASE 1A CLINICAL HIGHLIGHTS

The Phase 1a study enrolled 63 patients with advanced solid tumors who had received a median of three prior lines of therapy. Key findings include:

Established Recommended Phase 2 Dose (RP2D): 0.39 mg/kg administered intravenously on Days 1 and 8 of a 21-day cycle
Favorable Safety Profile: Main adverse events included reversible transaminitis, nausea/vomiting, and thrombocytopenia—all clinically manageable and consistent with the alkylating agent class
High Therapeutic Index: Therapeutic plasma concentrations achieved three dose levels below RP2D, indicating a wide therapeutic window (~2.45-fold)
Encouraging Disease Control: 54% disease control rate and 8% clinical benefit rate at ≥6 months in DDR-altered tumors
Biomarker Validation: More than 87% of Phase 1a patients exceeded the PTGR1 bioactivation threshold, confirming the biomarker’s utility for patient selection
REMARKABLE PATIENT DURABILITY SIGNALS CLINICAL POTENTIAL

Several patients with DDR pathway alterations in the Phase 1a study achieved exceptional, ongoing responses despite having progressed through multiple prior standard-of-care therapies:

A 62-year-old male patient with stage 4 squamous NSCLC harboring a BRCA1 alteration, who had failed radiation and durvalumab, began LP-184 treatment in December 2023 and continues on therapy with more than 23 months of clinical benefit (Cycle 34 ongoing) and 22% target lesion reduction
A 50-year-old male patient with stage 4 thymic carcinoma with a CHEK2 alteration, who had progressed through four prior lines including pembrolizumab, started LP-184 in November 2023 and remains on treatment with more than 12 months of benefit (Cycle 17 ongoing) and 26% target lesion reduction
A 62-year-old female patient with stage 4 gastrointestinal stromal tumor (GIST) harboring an ATM alteration, who had failed four prior therapies including sunitinib, initiated LP-184 in November 2023 and continues treatment with more than 12 months of benefit (Cycle 19 ongoing) and 9% tumor reduction
These durability signals in heavily pre-treated, genomically-defined patient populations underscore LP-184’s potential as a precision oncology therapy and support the company’s biomarker-driven development strategy.

AI-GUIDED PRECISION MEDICINE APPROACH

Lantern’s proprietary RADR artificial intelligence platform played a central role in LP-184’s development, identifying prostaglandin reductase-1 (PTGR1) overexpression and low expression of multiple DDR genes as strong predictors of LP-184 sensitivity.

LP-184 functions as a prodrug that is selectively activated inside cancer cells by PTGR1, which is frequently overexpressed in tumors. Upon activation, LP-184 forms a highly reactive metabolite that breaks apart the DNA of the cancer cell and induces interstrand cross-links and double-strand breaks—damage that cannot be repaired in tumors with deficient DDR pathways, resulting in selective cancer-cell death while sparing normal cells.

Critically, LP-184 demonstrates activity across both homologous recombination (HR)-deficient and nucleotide excision repair (NER)-deficient tumors, potentially addressing a broader patient population than PARP inhibitors, which primarily target HR deficiency. Preclinical data show LP-184 is active even in PARP inhibitor-resistant models, highlighting its differentiated mechanism.

Lantern has developed a diagnostic-ready RT-qPCR assay for PTGR1 expression in FFPE tumor tissue, enabling patient selection for ongoing and future trials consistent with a precision oncology approach.

REGULATORY MOMENTUM SUPPORTS ACCELERATED DEVELOPMENT

LP-184 has received six FDA designations recognizing its potential to address serious unmet medical needs:

Fast Track Designation for triple-negative breast cancer (TNBC)
Fast Track Designation for glioblastoma multiforme (GBM) (granted October 2024)
Orphan Drug Designation for malignant gliomas
Orphan Drug Designation for pancreatic cancer
Orphan & Pediatric Rare Disease Drug Designation for atypical teratoid rhabdoid tumors (ATRT)
These designations provide significant regulatory and development advantages, including more frequent interactions with the FDA, rolling submission of New Drug Application (NDA) sections, and potential eligibility for Accelerated Approval and Priority Review—mechanisms designed to expedite patient access to promising therapies in areas of high unmet need.

AMBITIOUS MULTI-INDICATION DEVELOPMENT PROGRAM IN DEVELOPMENT & UNDERWAY

Building on the Phase 1a foundation, Lantern has initiated and is planning to initiate and enroll multiple biomarker-guided Phase 1b/2 trials and investigator-sponsored studies:

Triple-Negative Breast Cancer (TNBC): Monotherapy and LP-184 plus olaparib (PARP inhibitor) combination arms in HR-deficient TNBC patients (n≈60-64 total). TNBC represents approximately 15% of all breast cancers with limited targeted therapy options and poor prognosis in the metastatic setting.
Advanced Drug-Resistant, Non-Small Cell Lung Cancer (NSCLC): LP-184 plus nivolumab and ipilimumab (dual checkpoint inhibitors) in patients with KEAP1/STK11 mutations and PD-L1 <50% (n≈34)—a genomically-defined subset with poor response to immunotherapy and chemotherapy alone.
Advanced Urothelial Carcinoma: LP-184 monotherapy investigator-sponsored trial in Denmark in patients with PTGR1-high expression and NER/HR pathway deficiencies (n≈27-39).
Recurrent Glioblastoma (GBM): LP-184 plus spironolactone combination (n≈38-39), targeting the first potential new GBM therapy in more than 20 years. GBM affects more than 13,000 U.S. patients annually with median survival of 12-15 months and virtually no effective options at recurrence. Trial initiation expected in early 2025 under the wholly owned subsidiary, Starlight Therapeutics.
Lantern is also reviewing additional development opportunities beyond these core Phase 1b/2 programs. Post-radiation pancreatic cancer represents a particularly compelling indication, as radiation therapy has been shown to upregulate tumoral PTGR1 expression, potentially enhancing LP-184’s tumor-selective activation. The company is also further exploring optimized dosing schedules to maximize therapeutic impact in certain solid tumors.

MANAGEMENT COMMENTARY

The trial met all primary endpoints for safety and tolerability and established a clear Recommended Phase 2 Dose with a wide therapeutic window.

"These are patients who had exhausted standard options, yet several remain on LP-184 with meaningful clinical benefit in challenging cancers one to two years later," said Panna Sharma, CEO of Lantern Pharma. "This durability in genomically selected, end-stage cancer patients is encouraging and directly validates the predictive power of our RADR AI platform and the PTGR1 biomarker. With a diagnostic-ready molecular assay for PTGR1, strong enthusiasm from key opinion leaders and multiple FDA designations in hand, Lantern plans on advancing LP-184 into multiple precision Phase 1b/2 trials targeting indications with aggregate annual U.S. market potential exceeding $10 to 12 billion."

WEBINAR: INSIDE THE DATA, AN IN-DEPTH DISCUSSION OF THE LP-184 SCIENCE, CLINICAL TRIAL RESULTS, AND FUTURE DEVELOPMENT PLANS

For a comprehensive review of LP-184’s mechanism of action, detailed Phase 1a clinical data, patient case studies, and the company’s development strategy, Lantern Pharma invites stakeholders to view the recent "Inside The Data" webinar featuring management and a Key Opinion Leader from Fox Chase Cancer Center. The webinar provides in-depth scientific context and clinical insights that complement this announcement and is available on Lantern Pharma’s YouTube channel at: View Source

About LP-184

LP-184 is a next-generation acylfulvene that is synthetically lethal and designed to selectively target solid tumors with DNA damage repair pathway deficiencies. As a prodrug activated by the enzyme PTGR1, LP-184 induces irreparable DNA damage in cancer cells while sparing normal tissue. The compound has demonstrated nanomolar potency in preclinical models and encouraging durability in clinical studies in heavily pre-treated patients. LP-184 has received FDA Fast Track Designation for TNBC and GBM, and Orphan Drug Designation for malignant gliomas, pancreatic cancer, and ATRT.

(Press release, Lantern Pharma, DEC 3, 2025, View Source [SID1234661111])